CN110235650B - Green curing means that plants in campus - Google Patents

Abstract

The invention belongs to the technical field of plant maintenance, and provides a campus green plant maintenance device aiming at the problem that the existing campus green plant irrigation is not beneficial to plant growth, which comprises: the pot body is used for planting green plants, and soil is filled in the pot body; the water tank is used for containing water; the water spraying mechanism comprises a water pump, a hose, a pipe body and a spray head, the water pump is fixed on the inner wall of the water tank, the pipe body is fixed on the outer wall of the basin body, the pipe body is communicated with the water pump through the hose, and the spray head is fixed on the top of the pipe body; the soil moisture sensor is used for detecting the humidity value of the soil; and the microcontroller is electrically connected with the water pump and the soil moisture sensor, a minimum humidity value A is stored in the microcontroller, the microcontroller compares the minimum humidity value A with the humidity value fed back by the soil moisture sensor after receiving the humidity value, and if the received humidity value is smaller than A, the microcontroller controls the water pump to work. The invention can automatically water when the plants need to be watered.

Description

Green curing means that plants in campus

Technical Field

The invention belongs to the technical field of plant maintenance, and particularly relates to a campus green plant maintenance device.

Background

The green plants not only have the function of purifying air, but also have the functions of decorating the environment and enjoying the mood, so that a large number of green plants can be planted in almost all campuses.

However, when the green plants in the campus are maintained, watering is basically carried out at regular time, or the watering is judged according to weather conditions (rainy days or sunny days), and workers in some schools even think to water the green plants when the workers want to water the green plants, and the workers can only water the green plants when the workers want to water the green plants.

These methods are not good for the healthy growth of plants for green plants.

Disclosure of Invention

The invention provides a campus green plant maintenance device, aiming at the problem that the existing campus green plant watering mode is not beneficial to healthy growth of plants.

The basic scheme provided by the invention is as follows:

green curing means that plants in campus includes:

the pot body is used for planting green plants, and soil is filled in the pot body;

the water tank is used for containing water;

the water spraying mechanism comprises a water pump, a hose, a pipe body and a spray head, the water pump is fixed on the side wall inside the water tank, the pipe body is fixed on the side wall outside the basin body, the pipe body is communicated with the water pump through the hose, and the spray head is fixed on the top of the pipe body;

the soil moisture sensor is used for detecting the humidity value of the soil;

the microcontroller is electrically connected with the water pump and the soil moisture sensor, and a minimum humidity value A is stored in the microcontroller;

and if the received humidity value is smaller than A, the microcontroller controls the water pump to work.

Basic scheme theory of operation and beneficial effect:

the soil moisture sensor detects the humidity value of soil in the basin body, and sends the humidity value that detects for microcontroller, and microcontroller receives the humidity value after, compares it with minimum humidity value A, if received humidity value is less than A, explains that the soil humidity value at this moment is lower, needs water, and at this moment, microcontroller control water pump work, and the water pump is taken the water back in with the water tank, through hose, body and shower nozzle, waters for the plant.

Therefore, automatic watering can be carried out when the plants need to be watered, and the situation that the time for artificial watering is unscientific and is not beneficial to the healthy growth of the plants can be avoided.

Furthermore, the edge of the bottom of the pot body is outwards protruded along the height direction of the pot body, and the bottom of the pot body is provided with water filtering holes; the outer bottom surface of the basin body is fixedly provided with slide rails which are positioned at two sides of the water filtering hole;

the water filtering mechanism comprises an iron sheet, a reset block, a reset elastic piece and an electromagnet; the iron block is connected with the sliding rail in a sliding way; the reset block is fixed on the bottom surface outside the pot body and is positioned at one end of the slide rail; the reset elastic piece is positioned between the iron sheet and the reset block, and generates elasticity when being stretched or compressed; the electromagnet is fixed on the bottom surface outside the pot body and positioned at the other end of the slide rail, and the electromagnet is electrically connected with the microcontroller;

the microcontroller also stores a maximum humidity value B, after receiving the humidity value fed back by the soil moisture sensor, the microcontroller also compares the maximum humidity value B with the humidity value B, and if the received humidity value is greater than B, the microcontroller controls the electromagnet to be electrified.

And after receiving the humidity value of the soil, the microcontroller compares the humidity value with the maximum humidity value B, and if the humidity value is greater than B, the humidity value of the soil is over high, and redundant water needs to be filtered. At the moment, the microcontroller controls the electromagnet to be electrified, the electromagnet attracts the iron sheet after being electrified, the iron sheet slides towards the direction of the electromagnet, the reset elastic piece is stretched, the water filtering holes are exposed, and redundant water in soil can flow out through the water filtering holes. Therefore, the water content in the soil can be reduced, and the excessive water accumulation of the roots of the green plants is avoided.

Soil moisture resumes normally, and after soil moisture value was not more than B promptly, microcontroller control electro-magnet outage, the electro-magnet no longer attracted the iron sheet, and the elastic component shrink that resets, and the iron sheet resets under the pulling of the elastic component that resets, shelters from the drainage hole, moisturizes soil.

Further, the system also comprises a water level sensor and a user side; the water level sensor is used for detecting the residual water amount in the water tank, is fixed on the bottom surface of the water tank and is electrically connected with the microcontroller; the microcontroller is also pre-stored with a minimum water level value C, when receiving the water level value fed back by the water level sensor, the microcontroller compares the minimum water level value C with the minimum water level value C, and when the water level value is smaller than C, the microcontroller sends a water supplementing signal to the user side; the user side is in communication connection with the microcontroller, and the user side comprises a receiving module which is used for receiving the water replenishing signal.

When the water level value fed back by the water level sensor is smaller than C, the water level sensor indicates that the water amount in the water tank is small and needs to be supplemented, at the moment, the microcontroller sends a water supplementing signal to the user end, and after receiving the water supplementing signal, a worker can supplement water in time.

Furthermore, the user side further comprises a reminding module for sending out a reminding after the receiving module receives the water replenishing signal.

Therefore, when the user side receives the water replenishing signal, the user side can send out a prompt to attract the attention of workers.

Furthermore, the reminding mode of the reminding module is voice reminding.

Compared with the text reminding, the voice reminding mode can attract the attention of workers.

Furthermore, the user side further comprises a checking module used for checking the received water replenishing signal.

Like this, the staff even though not noticing when reminding the module and reminding, as long as look over the moisturizing signal through looking over the module on time every day, also can be more timely notice the information that the user side received, prevent that the water tank normal water volume from appearing too little, lead to not having enough water source and water for green planting.

Further, a water filling port is arranged on the water tank.

The staff of being convenient for adds water.

Further, the elastic restoring piece is a spring.

The spring is a common elastic piece, is easy to obtain and is convenient to replace.

Furthermore, the drainage hole is opened has two, and the both sides in every drainage hole all are equipped with the slide rail, and drainage mechanism has two sets ofly.

In this way, when water filtration is required, excess water can be more quickly filtered out.

Further, the microcontroller is an STM32 singlechip.

The STM32 singlechip integrates abundant interfaces, communication modules and other functional modules, is well controlled in the aspect of power consumption, and has the advantages of fast response and strong real-time property.

Drawings

Fig. 1 is a schematic structural view of a campus green plant maintenance device according to a first embodiment of the present invention;

FIG. 2 is a schematic structural view of the bottom of a pot body in an embodiment of the campus green plant maintenance device of the present invention;

FIG. 3 is a logic block diagram of a first embodiment of the campus green plant maintenance device of the present invention;

fig. 4 is a logic block diagram of a user side in a second embodiment of the campus green plant maintenance device of the present invention;

FIG. 5 is a schematic structural view of a pot body in a third embodiment of the campus green plant maintenance device of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the flowerpot comprises a pot body 1, a water tank 2, a water pump 3, a hose 4, a pipe body 5, a spray head 6, a water filtering hole 7, an iron sheet 8, a slide rail 9, a spring 10, a reset block 11, an electromagnet 12, an inner pot body 101, an outer pot body 102, a large bolt 103 and a large spring 104.

Example one

As shown in fig. 1 and 2:

green curing means of planting in campus includes the basin body 1, drainage mechanism, water tank 2, water spray mechanism, microcontroller, soil moisture sensor, level sensor and user.

The pot body 1 is used for planting green plants, and soil is filled in the pot body 1. The edge of the outer bottom surface of the pot body 1 is protruded outwards along the height direction of the pot body 1. Two water filtering holes 7 are formed in the bottom surface of the outer portion of the pot body 1, sliding rails 9 are arranged on two sides of each water filtering hole 7, and the sliding rails 9 are integrally formed in the bottom surface of the outer portion of the pot body 1.

The water filtering mechanism comprises an iron sheet 8, a reset block 11, a reset spring 10 and an electromagnet 12. The water filtering mechanisms are provided with two groups which are respectively matched with the two water filtering holes 7. The iron sheet 8 is connected with the slide rail 9 in a sliding way, the reset block 11 is fixed at the bottom of the pot body 1, and the reset block 11 is positioned at one end of the slide rail 9; the reset spring 10 is positioned between the reset block 11 and the iron sheet 8, and two ends of the reset spring 10 are respectively fixed with the reset block 11 and the iron sheet 8; the electromagnet 12 is bonded at the bottom of the pot body 1 and is positioned at the other end of the slide rail 9. As shown in fig. 3, the electromagnet 12 is electrically connected to the microcontroller.

The water tank 2 is used for containing water, a water inlet is formed in the water tank 2, and a worker can replenish water into the water tank 2 through the water inlet.

The water spraying mechanism comprises a pipe body 5, a spray head 6, a water pump 3 and a hose 4, wherein the pipe body 5 is fixed on the outer side wall of the pot body 1, and the top of the pipe body 5 is higher than the top of the pot body 1. The nozzle 6 is fixed on the top end of the tube body 5.

The water pump 3 is bonded on the inner side wall of the water tank 2, and the water pump 3 is communicated with the pipe body 5 through a hose 4. The water pump 3 is electrically connected with the microcontroller.

Soil moisture sensor is used for detecting the humidity value of soil in the basin body 1, and soil moisture sensor is connected with the microcontroller electricity, and in this embodiment, soil moisture sensor is the soil humidity that Shenzhen far east zhi becomes technology Limited company and produces and detects the probe, and this soil sensor's probe is corrosion-resistant to adopted import TI chip, the precision is high, the reaction is fast and durable.

And the water level sensor is used for detecting the residual water amount in the water tank 2 and is fixed at the bottom of the water tank 2 by bolts. In this embodiment, the water level sensor is the drop-in level gauge of red flag instrument (Jiangsu) limited customization, and the drop-in level gauge technology that this company produced is mature, and stable performance is and comparatively durable.

The microcontroller stores a minimum humidity value A and a maximum humidity value B. In the embodiment, the microprocessor is an STM32 series single chip microcomputer, the series single chip microcomputer integrates abundant interfaces, communication modules and other functional modules, the power consumption is well controlled, the response is fast, and the real-time performance is high.

And after receiving the soil humidity value fed back by the soil moisture sensor, the microcontroller compares the soil humidity value with the A and the B.

When the soil humidity value is smaller than A, the microcontroller controls the first water pump 3 to work. The first water pump 3 pumps out the water in the water tank 2 and sprays the water on the green plants through the spray head 6. Therefore, the soil can be moisturized for the green plants, and dust on the surfaces of the green plants can be removed.

When the soil humidity value is larger than B, the microcontroller controls the electromagnet 12 to be electrified, the electromagnet 12 attracts the iron sheet 8 after being electrified, the iron sheet 8 slides towards the electromagnet 12, the return spring 10 is stretched, the water filtering holes 7 are exposed, and redundant water in the soil can flow out through the water filtering holes 7. Therefore, the water content in the soil can be reduced, and the excessive water accumulation of the roots of the green plants is avoided. Soil moisture resumes normally, and after soil moisture value was not more than B promptly, microcontroller control electro-magnet 12 outage, electro-magnet 12 no longer attracted iron sheet 8, and reset spring 10 contracts and resets, and iron sheet 8 resets under reset spring 10's pulling, shelters from drainage hole 7, moisturizes soil.

The specific values of the minimum humidity value a and the maximum humidity value B can be specifically set by those skilled in the art according to the specific types of green plants.

The microcontroller is also internally stored with a minimum water level value C, when receiving the water level value fed back by the water level sensor, the microcontroller compares the minimum water level value C with the minimum water level value C, and when the water level value is smaller than C, the microcontroller sends a water supplementing signal to the user side to inform a worker of adding water into the water tank 2 in time. The specific value of the minimum water level value C can be set by those skilled in the art according to the specific volume of the water tank 2 and the type of green plants.

User terminal

In this embodiment, the user side is a mobile APP, and in other embodiments, the user side may use other mobile terminals or PCs. The microcontroller is in communication connection with the user terminal through an existing wireless communication module, such as a 4G module.

The user side comprises a receiving module and a reminding module.

The receiving module is used for receiving the water replenishing signal. The reminding module is used for sending out a reminding when the receiving module receives the water replenishing signal. In this embodiment, the reminding mode is voice reminding. Compared with text reminding, voice reminding can attract the attention of workers.

Like this, when water tank 2 needs the moisturizing, the staff can in time know the condition, and the very first time carries out the replenishment at water source.

Use this device, can prevent that maintenance personal from watering when green planting does not need watering, does not water when green planting needs watering, simultaneously, when soil moisture content is too high, also can be automatic with straining of unnecessary moisture, after the staff only need receive watered signal, feed tank 2 carries out the moisturizing can.

Example two

As shown in fig. 4, different from the first embodiment, in the present embodiment, the user side further includes a checking module, configured to check the received water replenishing signal.

Therefore, even if the staff does not notice the information when the reminding module reminds, the staff can not have great influence. As long as the staff looks over the moisturizing signal received through looking over the module on time every day, also can be comparatively timely notice the information that the user side received, know the demand of 2 moisturizing of feed tank, and then in time go to be 2 moisturizing of water tank.

Thus, the situation that the water quantity in the water tank 2 is too small and a sufficient water source is not available for irrigating green plants can be prevented.

EXAMPLE III

As shown in FIG. 5, unlike the first embodiment, the tub 1 of the present embodiment includes an outer tub 102 and an inner tub 101; the water filtering mechanism and the water filtering holes 7 are arranged on the inner pot body 101; the water tank 2 is fixed on the outer wall of the outer pot body 102, and the bottom surface of the outer pot body 102 is provided with a water outlet.

The bottom surfaces of the outer pot body 102 and the inner pot body 101 are both circular, the inner pot body 101 can be completely placed in the outer pot body 102, and the thickness of the outer pot body 102 is the same as that of the inner pot body 101.

A large threaded hole is formed in the middle of the inner pot body 101, and a large bolt 103 matched with the large threaded hole is fixed in the middle of the outer pot body 102; the inner pot body 101 is rotatably connected with the outer pot body 102 through large threaded holes and large bolts 103. The flowerpot further comprises a large spring 104, the large spring 104 is sleeved on the large bolt 103, the lower end of the large spring 104 is bonded on the bottom surface of the outer pot body 102, and the upper end of the large spring is in contact with the bottom surface of the inner pot body 101.

The inner wall of the outer pot body 102 is embedded with large magnets irregularly, and the soil of the inner pot body 101 is embedded with small magnet blocks irregularly.

Thus, when watering, the total weight of the inner pot 101 and its inner load will gradually increase, and further the large spring 104 will be pressed, and the inner pot 101 will rotate downward with the large bolt 103 as the shaft. Thus, by rotating, on one hand, the spray head 6 can spray water more uniformly to all directions of the plants; except this, interior basin body 101 is when rotating, and magnetic force between little magnet piece and the big magnet can change, and certain displacement can take place for little magnet piece, like this, can loosen the soil in the interior basin body 101, and then increases the gas permeability of soil, promotes plant roots's respiration.

After the moisture in the inner pot body 101 is reduced, the total weight of the inner pot body 101 and the inner load thereof is gradually reduced, the large spring 104 is gradually reset, and the inner pot body 101 rotates in the axial direction by using the large bolt 103. Like this, can loosen the soil once more, simultaneously, through rotatory, can make the sunshine that each position of plant received more even.

In the growth process of plant, its weight can grow gradually, and interior basin body 101 can use large-scale bolt 103 to rotate downwards gradually as the axle, like this, through rotating, can make the sunshine that each position of plant received more even, is favorable to the healthy growth of plant.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (9)

1. Green curing means that plants in campus, its characterized in that includes:

the pot body is used for planting green plants, and soil is filled in the pot body;

the water tank is used for containing water;

the water spraying mechanism comprises a water pump, a hose, a pipe body and a spray head, the water pump is fixed on the side wall inside the water tank, the pipe body is fixed on the side wall outside the basin body, the pipe body is communicated with the water pump through the hose, and the spray head is fixed on the top of the pipe body;

the soil moisture sensor is used for detecting the humidity value of the soil;

the microcontroller is electrically connected with the water pump and the soil moisture sensor, and a minimum humidity value A is stored in the microcontroller;

after receiving the humidity value fed back by the soil moisture sensor, the microcontroller compares the humidity value with a minimum humidity value A, and if the received humidity value is smaller than A, the microcontroller controls the water pump to work;

the edge of the bottom of the pot body is protruded outwards along the height direction of the pot body, and the bottom of the pot body is provided with water filtering holes; the outer bottom surface of the basin body is fixedly provided with slide rails which are positioned at two sides of the water filtering hole;

the water filtering mechanism comprises an iron sheet, a reset block, a reset elastic piece and an electromagnet; the iron block is connected with the sliding rail in a sliding way; the reset block is fixed on the bottom surface outside the pot body and is positioned at one end of the slide rail; the reset elastic piece is positioned between the iron sheet and the reset block, and generates elasticity when being stretched or compressed; the electromagnet is fixed on the bottom surface outside the pot body and positioned at the other end of the slide rail, and the electromagnet is electrically connected with the microcontroller;

the microcontroller also stores a maximum humidity value B, compares the maximum humidity value B with the humidity value B after receiving the humidity value fed back by the soil moisture sensor, and controls the electromagnet to be electrified if the received humidity value is greater than B;

the pot body comprises an outer pot body and an inner pot body; the water filtering mechanism and the water filtering holes are arranged on the inner pot body; the water tank is fixed on the outer wall of the outer pot body, and the bottom surface of the outer pot body is provided with a water outlet hole;

the bottom surfaces of the outer pot body and the inner pot body are both circular, the inner pot body can be completely placed in the outer pot body, and the thickness of the outer pot body is the same as that of the inner pot body;

a large threaded hole is formed in the middle of the inner pot body, and a large bolt matched with the large threaded hole is fixed in the middle of the outer pot body; the inner pot body is rotationally connected with the outer pot body through a large threaded hole and a large bolt; the large spring is sleeved on the large bolt, the lower end of the large spring is bonded on the bottom surface of the outer pot body, and the upper end of the large spring is contacted with the bottom surface of the inner pot body;

the inner wall of the outer pot body is embedded with large magnets irregularly, and the soil of the inner pot body is embedded with small magnet blocks irregularly.

2. The campus green maintenance device of planting of claim 1, characterized in that: the system also comprises a water level sensor and a user side; the water level sensor is used for detecting the residual water amount in the water tank, is fixed on the bottom surface of the water tank and is electrically connected with the microcontroller; the microcontroller is also pre-stored with a minimum water level value C, when receiving the water level value fed back by the water level sensor, the microcontroller compares the minimum water level value C with the minimum water level value C, and when the water level value is smaller than C, the microcontroller sends a water supplementing signal to the user side; the user side is in communication connection with the microcontroller, and the user side comprises a receiving module which is used for receiving the water replenishing signal.

3. The campus green maintenance device of planting of claim 2, characterized in that: the user side further comprises a reminding module used for sending out a reminding after the receiving module receives the water replenishing signal.

4. The campus green maintenance device of planting of claim 3, characterized in that: the reminding mode of the reminding module is voice reminding.

5. The campus green maintenance device of planting of claim 4, characterized in that: the user side further comprises a checking module used for checking the received water replenishing signal.

6. The campus green maintenance device of planting of claim 1, characterized in that: the water tank is provided with a water filling port.

7. The campus green maintenance device of planting of claim 1, characterized in that: the elastic restoring piece is a spring.

8. The campus green maintenance device of planting of claim 7, characterized in that: the drainage hole is opened has two, and the both sides in every drainage hole all are equipped with the slide rail, and drainage mechanism has two sets ofly.

9. The campus green maintenance device of planting of claim 1, characterized in that: the microcontroller is an STM32 single chip microcomputer.

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